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HAZARDOUS MANUAL TASKS

Code of Practice

Safe Work Australia is an Australian Government statutory agency established in 2009. Safe Work Australia consists of representatives of the Commonwealth, state and territory governments, the Australian Council of Trade Unions, the Australian Chamber of Commerce and Industry and the Australian Industry Group.

Safe Work Australia works with the Commonwealth, state and territory governments to improve work health and safety and workers’ compensation arrangements. Safe Work Australia is a national policy body, not a regulator of work health and safety. The Commonwealth, states and territories have responsibility for regulating and enforcing work health and safety laws in their jurisdiction.

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Except for the logos of NT WorkSafe and Safe Work Australia, this copyright work is licensed under a Creative Commons Attribution-Noncommercial 3.0 Australia licence. To view a copy of this licence, visit

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Contact informationSafe Work AustraliaPhone: +61 2 6121 5317Email: [email protected]: www.safeworkaustralia.gov.au

Version: 1.1Publish Date: 8 February 2013

This code of practice was approved by the Minister for Justice and Attorney-General under section 274(1) of the Work Health and Safety (National Uniform Legislation) Act 2011 on 20 December 2011 and published in the Northern Territory Government Gazette (No. S78) on 30 December 2011.

This code of practice commences on 1 January 2012 and is based on the national code of practice developed by Safe Work Australia as part of the harmonisation of work health and safety laws.

1

TABLE OF CONTENTS

CODE OF PRACTICE | HAZARDOUS MANUAL TASKS

FOREWORD 2

1. INTRODUCTION 3

1.1 What is a musculoskeletal disorder (MSD)? 3

1.2 What is a hazardous manual task? 4

1.3 Who has health and safety duties in relation to hazardous manual tasks? 4

1.4 What is required to manage the risk of musculoskeletal disorders? 5

2. IDENTIFYING HAZARDOUS MANUAL TASKS 7

2.1 How to identify hazardous manual tasks 7

2.2 Characteristics of Hazardous Manual Tasks 8

3. ASSESSING THE RISKS 12

3.1 When should a risk assessment be conducted? 12

3.2 How to do a risk assessment for hazardous manual tasks 12

3.3 What are the risk factors? 13

3.4 What are the sources of the risk? 16

4. CONTROLLING THE RISKS 20

4.1 The hierarchy of control 20

4.2 Purchasing to eliminate or minimise risks 21

4.3 Changing the design or layout of work areas 21

4.4 Changing the nature, size, weight or number of items handled 23

4.5 Using mechanical aids 25

4.6 Handling people and animals 28

4.7 Changing the system of work 29

4.8 Changing the work environment 30

4.9 Using administrative control measures 32

4.10 Implementing control measures 34

5. REVIEWING CONTROL MEASURES 35

6. ROLE OF DESIGNERS, MANUFACTURERS, IMPORTERS AND SUPPLIERS 36

6.1 Designers 36

6.2 Manufacturers, importers and suppliers 37

APPENDIX A – THE RISK MANAGEMENT PROCESS FOR MANUAL TASKS 39

APPENDIX B – HAZARDOUS MANUAL TASK IDENTIFICATION WORKSHEET 40

APPENDIX C – DISCOMFORT SURVEY 41

APPENDIX D – RISK ASSESSMENT WORKSHEET 42

APPENDIX E – CONTROLLING MSD RISKS THROUGH DESIGN 48

APPENDIX F – REFERENCES FOR FURTHER RISK ASSESSMENT METHODS 49

CODE OF PRACTICE | HAZARDOUS MANUAL TASKS2

This Code of Practice on how to identify hazardous manual tasks and control the risks of workers being affected by musculoskeletal disorders is an approved code of practice under section 274 of the Work Health and Safety (National Uniform Legislation) Act 2011 (the WHS ACT).

An approved code of practice is a practical guide to achieving the standards of health, safety and welfare required under the WHS Act and the Work Health and Safety (National Uniform Legislation) Regulations 2011 (the Regulations).

A code of practice applies to anyone who has a duty of care in the circumstances described in the code. In most cases, following an approved code of practice would achieve compliance with the health and safety duties in the WHS Act, in relation to the subject matter of the code. Like regulations, codes of practice deal with particular issues and do not cover all hazards or risks that may arise. The health and safety duties require duty holders to consider all risks associated with work, not only those for which regulations and codes of practice exist.

Codes of practice are admissible in court proceedings under the WHS Act and Regulations. Courts may regard a code of practice as evidence of what is known about a hazard, risk or control and may rely on the code in determining what is reasonably practicable in the circumstances to which the code relates.

Compliance with the WHS Act and Regulations may be achieved by following another method, such as a technical or an industry standard, if it provides an equivalent or higher standard of work health and safety than the code.

An inspector may refer to an approved code of practice when issuing an improvement or prohibition notice.

This Code of Practice has been developed by Safe Work Australia as a model code of practice under the Council of Australian Governments’ Inter-Governmental Agreement for Regulatory and Operational Reform in Occupational Health and Safety for adoption by the Commonwealth, state and territory governments.

A draft of this Code of Practice was released for public consultation on 7 December 2010 and was endorsed by the Workplace Relations Ministers Council on 10 August 2011.

SCOPE AND APPLICATIONThis Code provides practical guidance to persons conducting a business or undertaking on how to manage the risk of musculoskeletal disorders arising from hazardous manual tasks in the workplace. It applies to all types of work and all workplaces where manual tasks are carried out.

This Code explains how to identify hazardous manual tasks, assess the risks of musculoskeletal disorders and eliminate or minimise those risks. This guidance is also relevant for designers, manufacturers, importers or suppliers of equipment, materials and tools used for work, as well as designers of workplaces where manual tasks are carried out.

HOW TO USE THIS CODE OF PRACTICEIn providing guidance, the word ‘should’ is used in this Code to indicate a recommended course of action, while ‘may’ is used to indicate an optional course of action.

This Code also includes various references to provisions of the WHS Act and Regulations which set out the legal requirements. These references are not exhaustive. The words ‘must’, ‘requires’ or ‘mandatory’ indicate that a legal requirement exists and must be complied with.

FOREWORD

CODE OF PRACTICE | HAZARDOUS MANUAL TASKS 3

Most jobs involve carrying out some type of manual task using the body to move or hold an object, people or animals. Manual tasks cover a wide range of activities including stacking shelves, working on a conveyor line and entering data into a computer.

Some manual tasks are hazardous and may cause musculoskeletal disorders. These are the most common workplace injuries across Australia.

1.1 What is a musculoskeletal disorder (MSD)?A musculoskeletal disorder, as defi ned in the WHS Regulations, means an injury to, or a disease of, the musculoskeletal system, whether occurring suddenly or over time. It does not include an injury caused by crushing, entrapment (such as fractures and dislocations) or cutting resulting from the mechanical operation of plant.

MSDs may include conditions such as:

sprains and strains of muscles, ligaments and tendons

back injuries, including damage to the muscles, tendons, ligaments, spinal discs, nerves, joints and bones

joint and bone injuries or degeneration, including injuries to the shoulder, elbow, wrist, hip, knee, ankle, hands and feet

nerve injuries or compression (e.g. carpal tunnel syndrome)

muscular and vascular disorders as a result of hand-arm vibration

soft tissue hernias

chronic pain.

MSDs occur in two ways:

gradual wear and tear to joints, ligaments, muscles and inter-vertebral discs caused by repeated or continuous use of the same body parts, including static body positions

sudden damage caused by strenuous activity, or unexpected movements such as when loads being handled move or change position suddenly.

Injuries can also occur due to a combination of these mechanisms, for example, body tissue that has been weakened by cumulative damage may be vulnerable to sudden injury by lower forces.

1. INTRODUCTION


1.2 What is a hazardous manual task?A hazardous manual task, as defi ned in the WHS Regulations, means a task that requires a person to lift, lower, push, pull, carry or otherwise move, hold or restrain any person, animal or thing involving one or more of the following:

repetitive or sustained force

high or sudden force

repetitive movement

sustained or awkward posture

exposure to vibration.

These factors (known as characteristics of a hazardous manual task) directly stress the body and can lead to injury.

1.3 Who has health and safety duties in relation to hazardous manual tasks?

A person conducting a business or undertaking has the primary duty to ensure, so far as is reasonably practicable, that workers and other persons are not exposed to health and safety risks arising from the business or undertaking.

The WHS Regulations include specifi c obligations for persons conducting a business or undertaking to manage the risk of a musculoskeletal disorder associated with a hazardous manual task.

Designers, manufacturers, importers and suppliers of plant and structures that are likely to be handled or used during or as part of a manual task have an important role in eliminating or minimising the risks of MSDs, which are often associated with the poor design and layout of work areas as well as the design of equipment, tools, packaging and materials. They must ensure, so far as is reasonably practicable, that the plant or structure they design, manufacture, import or supply is without risks to health and safety (see Chapter 6 of this Code for further guidance).

Offi cers, such as company directors, have a duty to exercise due diligence to ensure that the business or undertaking complies with the WHS Act and Regulations. This includes taking reasonable steps to ensure that the business or undertaking has and uses appropriate resources and processes to eliminate or minimise risks that arise from hazardous manual tasks.

Workers have a duty to take reasonable care for their own health and safety and that they do not adversely affect the health and safety of other persons. Workers must comply with any reasonable instruction and cooperate with any reasonable policy or procedure relating to health and safety at the workplace.

1. INTRODUCTION


1.4 What is required to manage the risk of musculoskeletal disorders?

A person conducting a business or undertaking must manage risks to health and safety relating to a musculoskeletal disorder associated with a hazardous manual task.

In order to manage risk under the WHS Regulations, a duty holder must:

identify reasonably foreseeable hazards that could give rise to the risk

eliminate the risk so far as is reasonably practicable

if it is not reasonably practicable to eliminate the risk – minimise the risk so far as is reasonably practicable by implementing control measures in accordance with the hierarchy of control

maintain the implemented control measure so that it remains effective

review, and if necessary revise, risk control measures so as to maintain, so far as is reasonably practicable, a work environment that is without risks to health and safety.

This Code provides guidance on how to manage the risks associated with those manual tasks that have the potential to cause MSDs by following a systematic process that involves:

identifying manual tasks that are hazardous

if necessary, assessing the risks of MSDs associated with the hazardous manual task

implementing suitable risk control measures

reviewing the effectiveness of control measures.

A summary of this process in relation to manual tasks is at Appendix A. Guidance on the general risk management process is available in the Code of Practice: How to Manage Work Health and Safety Risks.

CONSULTING YOUR WORKERS The person conducting the business or undertaking must consult, so far as is reasonably practicable, with workers who carry out work for the business or undertaking who are (or are likely to be) directly affected by a work health and safety matter.

If the workers are represented by a health and safety representative, the consultation must involve that representative.

Consultation involves sharing of information, giving workers a reasonable opportunity to express views and taking those views into account before making decisions on health and safety matters.

Consultation with workers and their health and safety representatives is necessary at each step of the risk management process. Your workers know which tools and activities contribute to their discomfort and may have practical suggestions or potential solutions.

Regulation 60

1. INTRODUCTION

Regulation 34-38

Section 47

Section 48


It is important to consult your workers as early as possible when planning to:

introduce new tasks or change existing tasks

select new equipment

refurbish, renovate or redesign existing workplaces

carry out work in new environments.

You should also encourage your workers to report problems with manual tasks and signs of discomfort immediately so that risks can be managed before an injury occurs.

CONSULTING, CO-OPERATING AND CO-ORDINATING ACTIVITIES WITH OTHER DUTY HOLDERS

If more than one person has a duty in relation to the same matter, each person with the duty must, so far as is reasonably practicable, consult, co-operate and co-ordinate activities with all other persons who have a work health or safety duty in relation to the same matter.

Sometimes you may share responsibility for a health and safety matter with other business operators who are involved in the same activities or who share the same workplace. In these situations, you must exchange information to fi nd out who is doing what and work together in a co-operative and co-ordinated way so that all risks are eliminated or minimised so far as is reasonably practicable.

For example, if a supplier visits your workplace to deliver goods, you should discuss with the supplier how the goods will be handled at your workplace, whether there are any environmental or other factors that may increase the risk (for example, using a fl ight of stairs while handling large boxes) and what you each will do to control any risk of injury.

Further guidance is available in the Code of Practice: Work Health and Safety Consultation, Co-operation and Co-ordination.

1. INTRODUCTION

Section 46


The fi rst step in managing risks from carrying out manual tasks is to identify those tasks that have the potential to cause MSDs. Hazards that arise from manual tasks generally involve interaction between a worker and:

the work tasks and how they are performed

the tools, equipment and objects handled

the physical work environment.

2.1 How to identify hazardous manual tasks

CONSULT YOUR WORKERS Workers who perform manual tasks can provide valuable information about discomfort, muscular aches and pains that can signal potential hazards. For example, you could ask workers to identify tasks that:

are diffi cult to do (or appear harder than they should be)

are very tiring (muscle fatigue reduces work capacity)

are awkward or dangerous (for example, diffi culty controlling loads)

cause discomfort.

A discomfort survey that may be used is at Appendix B.

REVIEW AVAILABLE INFORMATIONRecords of workplace injuries and incidents, inspection reports and any workers compensation claims made for MSDs should be reviewed to help identify which manual tasks may cause harm. However, not all hazardous manual tasks will be associated with reported incidents, therefore it is important to gather additional information.

Information and advice about hazardous manual tasks and risks relevant to particular industries and work activities is available from regulators, industry associations, unions, technical specialists and safety consultants.

LOOK FOR TRENDSYou may be able to identify trends or common problems from the information you collect. Trends may show that certain tasks have more characteristics that make them hazardous or that some characteristics are more common in certain jobs. Trends may also show that workers in a particular location are exposed to more hazardous manual tasks than in other areas and this could indicate a problem with the design and layout of that work area or the way work is carried out there.

These trends may help in deciding which manual tasks should be addressed as a priority.

OBSERVE MANUAL TASKSHazardous manual tasks can also be identifi ed by looking at how people actually work and focussing on their postures and movements. A manual task is hazardous if it involves any of the following characteristics (described in Section 2.2):

repetitive or sustained force

high or sudden force

repetitive movement

2. IDENTIFYING HAZARDOUS MANUAL TASKS


sustained and/or awkward posture

exposure to vibration.

Things to look out for include:

any changes that have resulted in new manual tasks or a changed environment

tasks involving tools, machinery or equipment that do not work properly or are diffi cult to use, and

if workers have made improvisations to tasks to avoid discomfort (such as stacking mats or fl attened cartons to stand on).

The hazard identifi cation worksheet in Appendix C may be used to record your fi ndings.

2.2 Characteristics of Hazardous Manual Tasks

FORCE IS THE AMOUNT OF MUSCULAR EFFORT REQUIRED TO PERFORM A MOVEMENT OR TASK. FORCEFUL MUSCULAR EXERTIONS OVERLOAD MUSCLES, TENDONS, JOINTS AND DISCS AND ARE ASSOCIATED WITH MOST MSDS.

Repetitive force - using force repeatedly over a period of time to move or support an object

Examples of repetitive force include:

lifting and stacking goods onto a pallet

gripping and handling bricks when bricklaying (Figure 1)

repetitively pressing components with the thumbs or other part of the hand to assemble an item

prolonged application of therapeutic massage treatments

removing splinting material from patients using shears.

Sustained force - occurs when force is applied continually over a period of time.

Example of sustained force include:

pushing or pulling a trolley around hospital wards (Figure 2)

holding down a trigger to operate a power tool

supporting a plaster sheet while fi xing it to a ceiling

carrying objects over long distances

supporting, positioning or stabilising a patient’s limb during surgery or when applying splinting or casting material


FIGURE 1

FIGURE 2


High force – may be exerted by the back, arm or leg muscles or by the hands and fi ngers.

High force occurs in any tasks that:

a worker describes as very demanding physically

a worker needs help to do because of the effort it requires

Examples of high force include:

Lifting, lowering or carrying a heavy object

Lifting, lowering or carrying an object that cannot be positioned close to the body

pushing or pulling an object that is hard to move or stop

restraining a person or animal. (Figure 3)

require a stronger person or two persons to do the task.

Examples of high force using the hands and fi ngers include:

using a fi nger-grip, a pinch-grip or an open-handed grip to handle a heavy or large load

operating hand tools with tight squeeze grips (Figure 4)

gripping small instruments with high force, for example, a dental hygienist cleaning teeth.

Sudden force – jerky or unexpected movements while handling an item or load are particularly hazardous because the body must suddenly adapt to the changing force.

Tasks where force is applied suddenly and with speed also generates high force.

Examples of sudden force include:

impact recoil of a large nail gun

throwing or catching objects

cutting reinforcement steel with large bolt cutters

carrying an unbalanced or unstable load such as bagged stock feed pellets that suddenly moves (Figure 5)

handling frightened or resistant animals

handling patients who suddenly resist or no longer assist during the handling procedure.


FIGURE 3

FIGURE 4

FIGURE 5


MOVEMENT

Repetitive movement – using the same parts of the body to repeat similar movements over a period of time.

Examples of repetitive movement include:

painting

lifting goods from a conveyor belt and packing them in a carton

typing and other keyboard tasks (Figure 6)

repeatedly reaching for and assembling components in electronics manufacturing

using a socket and ratchet or spanner to unscrew long bolts.

POSTUREAN IDEAL POSTURE IS ONE WHERE THE TRUNK AND HEAD ARE UPRIGHT AND FORWARD FACING, THE ARMS ARE BY THE SIDE OF THE BODY, THE FOREARMS ARE EITHER HANGING STRAIGHT OR AT RIGHT ANGLES TO THE UPPER ARM, AND THE HAND IS IN THE HANDSHAKE POSITION.

POSTURES THAT ARE BOTH AWKWARD AND SUSTAINED ARE PARTICULARLY HAZARDOUS.

Sustained posture – where part of or the whole body is kept in the same position for a prolonged period.

Examples of sustained posture include:

supporting plasterboard sheeting while it is nailed into place (Figure 7)

continually standing with weight mainly on one leg while operating a power press with foot pedal controls.

Awkward posture – where any part of the body is in an uncomfortable or unnatural position, such as:

postures that are unbalanced or asymmetrical

postures that require extreme joint angles or bending and twisting.

Examples of awkward posture include:

squatting while servicing plant or a vehicle

working with arms overhead

bending over a desk or table

using a hand tool that causes the wrist to be bent to the side

kneeling while trowelling concrete or laying carpet

bending the neck or back to the side to see around bulky items pushed on a trolley. (Figure 8)


FIGURE 6

FIGURE 7

FIGURE 8


VIBRATION THERE ARE TWO COMMON FORMS OF VIBRATION ACCORDING TO CONTACT POINTS BETWEEN THE BODY AND THE SOURCE:

Whole body vibration occurs when vibration is transmitted through the whole body, usually via a supporting surface, such as a seat or the fl oor in heavy vehicles or machinery. This may result in lower back pain, degeneration of the lumbar vertebrae and disc herniation.

Examples of whole body vibration include:

operating mobile plant such as heavy earth moving machinery

driving a vehicle over rough terrain. (Figure 9)

Hand-arm vibration occurs when vibration is transferred through a vibrating tool, steering wheel or controls in heavy machinery to the hand and arm. This can disrupt blood circulation in the hand and forearm and damage nerves and tendons. Localised vibration contributes to ‘vibration-induced white fi nger’ and ‘carpal tunnel syndrome’ through the gripping force needed to hold the vibrating tools (the tighter the grip, the more vibration is absorbed) and the repetitive shock loads of some tools.

Examples of hand-arm vibration include:

using impact wrenches, chainsaws, jackhammers, grinders, drills or vibrating compacting plates (Figure 10-11)

using needle guns in de-rusting metal.


FIGURE 9

FIGURE 10

FIGURE 11


3. ASSESSING THE RISKS

A risk assessment involves examining the characteristics of the hazardous manual task in more detail to assess whether the forces, movements and postures are undertaken in such a way that they give rise to the risk of MSDs.

3.1 When should a risk assessment be conducted?You should carry out a risk assessment for any manual tasks that you have identifi ed as being hazardous, unless the risk is well-known and you know how to control it. A risk assessment can help you determine:

which postures, movements and forces of the task pose a risk

where during the task they pose a risk

why they are occurring

what needs to be fi xed.

3.2 How to do a risk assessment for hazardous manual tasks

Identify who should participate in the risk assessment, for example those workers who do the task or their health and safety representative, and management who have control over how the task is done. Describe the task and area where the manual task is performed. Note which body parts are likely to be at risk of injury, then work through the assessment together to determine which risk factors pose a risk and why the risk exists.

The whole task should be examined, although it may help to look at the task in stages to identify all of the risk factors. For example, the task of putting stationery items away in a storage cabinet may involve the following steps:

collecting boxes of stationery supplies from the delivery dock – handling boxes that are bulky may increase the risks associated with this task

transporting stationery supplies to the storage area – using a trolley with poorly maintained wheels may increase effort

unpacking boxes of stationery supplies – unpacking boxes from the fl oor may increase awkward postures

placing supplies on storage shelves – shelving heights that are too high or too low may increase awkward postures.

Looking at each of the steps identifi es the different sources of risk, which are the things that should be changed to control the risks.

For some complex situations, expert or specialist advice may be useful when conducting a risk assessment. There are a range of risk assessment tools that may be used. Further information is in Appendix F.

ASSESSING SIMILAR TASKSIf a number of your workers carry out very similar hazardous manual tasks, you may assess these tasks together as a group instead of assessing each task individually. However, you should only do a group risk assessment if all the tasks are suffi ciently similar and do not expose a worker to a different risk than if individual assessments were carried out.


20˚20˚ 20˚


3.3 What are the risk factors?Working through the following questions will assist in determining which postures, movements and forces of the task pose a risk. The Risk Assessment Worksheet at Appendix D may be used to record the fi ndings.

QUESTION 1: DOES THE TASK INVOLVE ANY OF THE FOLLOWING: repetitive movement? sustained or awkward postures? repetitive or sustained forces?

As a general guideline, ‘repetitive’ means that a movement or force is performed more than twice a minute and ‘sustained’ means a posture or force is held for more than 30 seconds at a time.

Examples of postures and movements that pose a risk if they are repetitive or sustained are:

FIGURE 12: Bending the head forwards or sideways more than 20 degrees.

FIGURE 13: Bending the back forwards or sideways more than 20 degrees.

FIGURE 14: Bending the back or head backwards more than 5 degrees or looking up.

FIGURE 15: Twisting the neck more than 20 degrees.

FIGURE 16: Twisting the back more than 20 degrees.

FIGURE 17: Working with one or both hands above shoulder height.



FIGURE 18: Reaching forward or sideways more than 30cm from the body.

FIGURE 19: Reaching forward or sideways more than 30cm from the body.

FIGURE 20: Reaching behind the body.

FIGURE 21: Standing with most of the body’s weight on one leg.

FIGURE 22: Twisting, turning, grabbing, picking or wringing actions with the fi ngers, hands or arms that includes excessive bending of the wrist.

FIGURE 23: Working with the fi ngers close together or wide apart.

FIGURE 24: Squatting, kneeling, crawling, lying, semi-lying or jumping.

FIGURE 25: Very fast movements, for example packing bottles from a fast moving process line.


The risk increases as the degree of bending and twisting increases. The risk is greatest when the postures and movements are extreme, that is, toward the end of the movement range, and when they feel uncomfortable for the worker.

QUESTION 2: DOES THE TASK INVOLVE LONG DURATION?If you have assessed a task as involving postures, movements or forces that are also repetitive (more than two per minute) and/or sustained (held for more than 30 seconds), you should determine the duration of the task.

The duration of the task is how long the task is carried out over a whole shift or continually at any time during a shift. Tasks that continue over a long period or are repeated over the work day increase the risk of injury.

As a general guideline, long duration means the task is done for more than a total of 2 hours over a whole shift or continuously for more than 30 minutes at a time.

Keep in mind that workers may use the same parts of the body to repeat similar movements when carrying out various tasks that are similar in nature over time.

QUESTION 3: DOES THE TASK INVOLVE HIGH OR SUDDEN FORCE?High forces can cause MSDs even if they are not repetitive or sustained. This means that any task involving high force may be a risk, even if it is only done occasionally or for short periods. The longer and more often force is applied and the higher the force, the greater the risk.

The risk in tasks involving high force is related to:

the intensity of the force needed - forceful muscular exertions place high stress on the muscles, tendons, joints, ligaments and vertebral discs.

the speed involved - fast movements (particularly if repeated) can injure muscles, tendons and ligaments. The rapid or sudden speed changes caused by sudden or unexpected movements are high risk.

whether the force is jerky or sudden - forces suddenly applied or stopped can overload the muscles, tendons, joints, ligaments and vertebral discs. This can occur when throwing or catching loads, or when the load or item worked on moves unexpectedly (for example, when pulling up a fence post that suddenly comes free, or assisting and holding a walking patient who suddenly falls).

High and sudden forces are commonly associated with the handling of live persons or animals and loads that are unstable, unbalanced or diffi cult to hold.

QUESTION 4: DOES THE TASK INVOLVE VIBRATION?Prolonged exposure to whole-body or hand-arm vibration increases the risk of MSDs and other health problems. The degree of risk increases as the duration of exposure increases and when the amplitude of vibration is high.

Some examples of sources of vibration are:

driving, particularly on rough roads

frequent or prolonged use of hand powered tools

use of machines or tools where the manufacturer’s handbook warns of vibration

workers being jolted or continuously shaken

use of a vehicle or tool not suitable for the environment or task.



QUESTION 5: IS THERE A RISK?The task involves a risk of MSD if you have answered ‘yes’ to either:

Question 1 and Question 2 The task involves repetitive or sustained postures, movements or forces, and it involves long duration.

Question 3 The task involves high force or sudden force. Question 4 The task involves vibration

A task may involve more than one risk factor. Where a number of risk factors are present and interact within a task, the risk of MSD increases signifi cantly.

3.4 What are the sources of the risk?When conducting the assessment, think about the sources of any risks that are present in the task. These will be the things that you may be able to change to eliminate or reduce the risk of MSD. For example, poor postures and movements may be due to the layout of the workplace, high forces may be due to the loads being handled, and the frequency and duration of the task may be due to the work organisation, limited staff numbers or increased work pace to meet tight deadlines.

The main sources of risk are:

work area design and layout

the nature, size, weight or number of things handled in performing the manual task,

systems of work

the environment in which the manual task is performed.

These sources of risk can also make the task more diffi cult to perform and therefore increase the risk of MSD.

For each risk factor, you should ask:

where in the task are they occurring

why each of these actions is occurring (source of the risk).

The answers to these questions will provide the information on how to fi x the source of the risk and hence control the risk of MSD.

CONSIDER THE WORK AREA DESIGN AND LAYOUTA work area includes work benches, conveyors, furniture and fi ttings and the equipment used by workers doing that job. The positioning and relationship of the different elements in a work area to each other and to the worker are important because of the effect on working postures.

A work area that is designed without consideration of the risks that arise from hazardous manual tasks may impose awkward postures on workers undertaking manual tasks, for example, bent and twisted positions with shoulders raised and the need to reach for items or carry loads over long distances.



CONSIDER THE NATURE, SIZE, WEIGHT OR NUMBER OF PERSONS, ANIMALS OR THINGS HANDLEDLoadsLoads can be a source of risk due to the amount of muscular effort needed to handle them. The harder to grip and control a person, animal or thing, the greater the force required to handle them.

The risk can arise from:

size, shape and weight of load – loads that are large, bulky, or heavy and cannot be held close to the body or are asymmetric and put uneven forces on the spine

loads that are diffi cult to grip through unsuitable handles, handholds or surface textures

unstable or unwieldy loads can create sudden high muscle forces and result in overloading of muscles, tendons or discs

handling people or animals – both the physical and behavioural nature of people or animals can be a source of risk, for example unpredictable movements requiring sudden forces to control.

Tools Tools that are unsuitable for the task can be a source of risk by increasing the force required, or by promoting sustained or awkward postures. Risks can arise from:

Weight – heavy hand tools, particularly if held for long periods of time, increase the force and effort required to perform a task, for example, a 3kg power drill used on an assembly line.

Balance – if the heaviest part of the tool is in front of the wrist, the force required to grip the tool and stop it tilting forward is increased.

Handle design – if the handle diameter is too large or too small, the grip span of the hand will create awkward postures and greater force will be required to control the tool. A handle that is too short or has prominent edges, can result in damaging compression of the palm.

Handle orientation – if the handle design does not place the wrist in a handshake position, the worker will need to use an awkward posture to operate the tool. Tools that cannot be adapted for use by both hands or are designed for right-handed use only can result in awkward postures and increased force.

Shock loading and impact – tools that deliver impacts such as hammers, hammer drills, and nail guns transmit impact forces to various ligaments and can require the use of a fi rmer grip to maintain control. They are a particular source of risk if used repetitively and for long periods.

Prolonged use – continued use of any hand tool (even tools that are well suited to the user and designed for the task) without adequate time to recover will increase risk of injury due to the sustained force to support it. In particular, vibrating tools increase risk.

Maintenance – poorly maintained or irregular service of tools and equipment may increase the effort needed to use them. For example, an unsharpened knife will increase the force required to bone and slice meat.



CONSIDER THE SYSTEMS OF WORK Systems of work, or the way work is organised, can infl uence the physical and mental demands that a manual task places on a worker. The fatigue and strain (physical and mental) that may arise from the aspects of work (task demands, task control and resources and support provided) bring on physiological responses such as increased muscular tension and affect the function of muscles, nerves and blood vessels, increasing the risk of the worker developing an MSD.

The sources of risk include:

time constraints

pace and fl ow of work across the working day or shift

ability for workers to infl uence workload or work methods and changes in the workplace

the level of resources and guidance

consultation processes

work roles and performance requirements or processes for dealing with confl icts

staffi ng levels, skill mix and shift arrangements.

Remember that workers will also have different physical and psychological characteristics and these individual factors may increase the risk, for example:

Skills and experience – being inexperienced in a job may increase the risk

Physical characteristics – an overload situation may result from a mismatch between the worker and the task

Unaccustomed work – workers who are new, have transferred from another job or are returning from extended leave and whose muscles are not conditioned to the work.

CONSIDER THE WORKPLACE ENVIRONMENTThe sources of risk in the work environment include:

Cold environments such as in cool rooms, freezers, cold stores or working outside in cold and/or wet weather can lower body and hand temperature and make handling and gripping objects more diffi cult. Increased grip force can also result from reduced sensitivity in cold hands or from wearing gloves. Cold can also signifi cantly increase the risk of hand-arm vibration. Working in a cold environment requires thick or heavy protective clothing that restricts movement which can increase the risk of MSD. It can also cause overheating of the body as the clothing does not allow heat or sweat to dissipate and may decrease the blood fl ow to muscles, increasing fatigue.

High temperatures - (including radiant heat), for example, in foundries, laundries, bakeries, kitchens, or working in hot weather can make handling and gripping objects more diffi cult. Workers may have diffi culty grasping objects due to perspiration on the hands or there may be sudden or unexpected forces due to loads slipping.

Humid environments - caused by processes such as steam cleaning, cooking or the weather can also increase the risk of developing MSD. Handling wet or damp objects may require increased force. Humidity may also increase discomfort and fatigue.



Wind - may increase the force required to handle items and reduce control while handling large objects, especially those that are fl exible and have a large surface area. When working in windy conditions and in low temperatures that are also windy, the resultant wind chill may lower the body temperature further.

Slippery and uneven fl oor surfaces - may increase the exertion required to perform manual tasks due to diffi culty maintaining stability. Unsuitable fl oor coverings (for example carpet) may increase friction when moving objects such as trolleys

Obstructions – caused by poor housekeeping and cleaning can lead to awkward postures such as reaching or bending over obstacles

Lighting - low or high levels of lighting, as well as glare and refl ection, may lead to awkward or sustained postures to either improve vision or to avoid glare.



Now you know which risk factors are present, where they are present and why they are present (sources of the risk), you are in a position to know what must be controlled and work out how to do it.

4.1 The hierarchy of control The ways of controlling the risk of MSDs are ranked from the highest level of protection and reliability to the lowest. This ranking is known as the hierarchy of risk control. The WHS Regulations require duty holders to work through this hierarchy to choose the control that most effectively eliminates or minimises the risk in the circumstances. This may involve a single control measure or a combination of two or more different controls.

ELIMINATE THE RISKThe most effective control measure involves eliminating the hazardous manual task and its associated risk. Eliminating hazards and risks is usually easier and cheaper to achieve in the planning or design stage of an item, process or place used for work.

MINIMISE THE RISKIf it is not reasonably practicable to eliminate the risk, then you must minimise the risks so far as is reasonably practicable by:

substituting the hazard with something that gives rise to a lesser risk

isolating the hazard from any person exposed to it

implementing engineering controls.

If there is a remaining risk, it must be minimised so far as is reasonably practicable by implementing administrative controls, and if a risk still remains, then suitable personal protective equipment must be provided and used. These two types of control measures, when used on their own, tend to be least effective in minimising risks because they rely on human behaviour and supervision.

Control measures should be aimed at eliminating or minimising the frequency, magnitude and duration of movements, forces and postures by changing the source of risk: the work area, tool, load, environment, method of handling and/or the way work is organised.

Hierarchy of control Examples of control measures

Level 1 Elimination Automate the manual task (such as using remote controls)

Deliver goods directly to the point of use to eliminate multiple handling

Level 2 Substitution Replace heavy items with those that are lighter, smaller and/or easier to handle

Replace hand tools with power tools to reduce the level of force required to do the task

Isolation Isolate vibrating machinery from the user, for example by providing fully independent seating on mobile plant

Engineering Use mechanical lifting aids

Provide workstations that are height adjustable

4. CONTROLLING THE RISKS


Level 3 Administrative Rotate workers between different tasks

Train workers to use control measures implemented when carrying out manual tasks

Personal protective equipment

Heat resistant gloves for handling hot items

Shock absorbent shoes for work on hard concrete fl oors

4.2 Purchasing to eliminate or minimise risksBefore purchasing equipment, such as tools, containers, workstations, machinery and vehicles, you should always check whether the item has been designed so that it can be used safely and best matches the needs of your workers. Where possible, you should:

brief designers and engineers so that consideration can be given to the design implications on the manual tasks performed

liaise with manufacturers and suppliers about handling, delivery and storage requirements

purchase ergonomically designed tools and equipment that suit the work being carried out and the physical characteristics of the workers

check any vibration specifi cations.

4.3 Changing the design or layout of work areasA well-designed work area will assist in eliminating or reducing the risk factors associated with a hazardous manual task, such as the degree of reaching, twisting or bending.

WORKSTATION DESIGNWorkstations should be designed to allow workers to work in an upright position, shoulders in a natural position (not elevated) and upper arms close to the trunk most of the time without large reaches to perform the task. Work surfaces should be easily adjustable to suit a range of workers and the tasks they perform.

Where it is not possible to provide adjustable workstations consider altering the design so that:

the workstation height suits the widest range of physical characteristics of workers

reaching distances suit shorter workers

knee and leg clearances suit larger workers.

WORKING HEIGHTSTasks with high visual demands should be performed above elbow height and work surfaces may need to be tilted, for example, for tasks involving delicate or precise manipulation.

Tasks where the hands make a narrow range of movements and can rest on the work surface should be performed at, or just above, elbow height. A sloping surface may reduce the amount of neck fl exion required to perform desk-based tasks, such as drafting.

Light manipulative tasks or tasks involving the use of a keyboard should be performed at just below elbow height.



Tasks incorporating a range of arm movements using the shoulder should be performed at between hip and shoulder height, for example taking items from a stack and placing them on a conveyor.

Tasks requiring considerable muscular effort or use of the body for leverage, for example, drilling at a workbench, should be performed at hip height and no higher.

Where possible, place items used in manual tasks so they are:

in front of the worker

between waist and shoulder height

close to the midline of workers and orientated towards the worker

on the worker’s preferred side

positioned within comfortable reaching distance

positioned to avoid double handling and to avoid moving loads manually over long distances.

Displays and controls should be positioned to encourage comfortable head and neck postures, comfortable hand and arm reach and effi cient use. You should:

place frequently used displays and controls, including keyboards and other input devices, directly in front of the worker

position controls at comfortable elbow height

select electronic or foot controls rather than hand controls if high force is required

place pedals so that workers can operate them from a comfortable seated position.

WORKING POSITIONWorkers should not remain in a seated, standing or otherwise static posture for prolonged periods. Design the workstation to provide opportunities for workers performing seated or standing tasks to vary their postures and movements

For seated tasks, seating should have the following features:

adjustable seat height and angle

a contoured backrest with a lumbar curve except those where the backrest would interfere with the actions to be performed

a swivel action to prevent the worker from twisting to reach workstation components

rounded seat edges

a fi ve-point base with casters to allow movement on carpet, and gliders fi tted to the base for low-resistance fl ooring, where access to work items located beyond normal reach is required

a footrest or foot ring fi tted on drafting or higher chairs to support the feet.

A seated work position is best for:

work that requires fi ne manipulation, accurate control or placement of small objects

close visual work that requires prolonged attention

work that involves operating a foot pedal.



Workers carrying out standing tasks should be provided with:

a chair, stool or support so that the worker can alternate between sitting and standing

a footrest (large enough for the whole foot) to allow the worker to stand with either foot raised

where possible, suitable fl oor covering to cushion concrete and other hard fl oors.

A standing work position is best when:

large, heavy or bulky loads are handled

forceful movements are required

reaching is required

movements away from the working position are frequent

there is no knee room

there is limited space.

WORK SPACEWork areas should have enough space to accommodate the number of workers and other people involved in the task, any equipment that might be required and space to operate the equipment safely. For example, when observing workers of an aged care facility assisting an infi rm person to bathe, the bathroom may need to accommodate two workers, the client and a mobile hoist with space to manoeuvre a person in the hoist over the toilet and bath or into a shower area.

4.4 Changing the nature, size, weight or number of items handled

HANDLING LOADSExamples of control measures that should be considered when handling loads include:

purchasing products in smaller loads for manual handling or larger loads to be shifted mechanically

reducing the size or capacity of containers

using handheld hooks or suction pads to move loads such as sheet materials

using grip devices adapted to the particular object to be carried. (Figure 26)

FIGURE 26: Use handling grip devices adapted to the particular object to be carried.



TOOLS AND EQUIPMENT

Hand tools should be designed to:

be held in a neutral wrist or handshake position (Figure 27)

allow the hand to retain a comfortable grip span

be well-balanced (the heaviest part of the tool needs to be behind the wrist)

be suitable for use by either hand

provide a good grip surface

prevent a worker from adopting a pinch grip with high force or for prolonged periods.

Minimise the level of muscular effort, particularly of the shoulder and wrist, needed to use hand tools by:

using power tools where possible

suspending or supporting heavy tools where they are used repetitively and in the same place

counterbalancing heavy tools that are used repetitively and need to be kept away from the body

using trigger locks where the grip has to be sustained for more than 30 seconds

holding the work piece in place with either jigs or fi xtures selecting tools that produce the least amount of vibration

reducing impact shocks

limiting torque or ‘kick back’ reactions.

MAINTENANCE Tools and equipment should be well maintained by carrying out regular inspections and servicing in accordance with the manufacturer’s specifi cations.

FIGURE 27: Select tools that can be held with a neutral wrist or in a handshake position with the hand adopting a comfortable (not too open or too closed) grip. Orient jigs and fi xtures holding the workpiece so that the wrist does not have to bend.

FIGURE 27: Excessive bending of the wrist is required to use this tool.

FIGURE 27: Modifying the tool eliminates the awkward wrist posture.



FIGURE 30: Mechanical lifter head to lift persons.


FIGURE 28: Select tools that are suited to the task, such as long handled saws when pruning trees.

FIGURE 28: The heaviest part of this brush cutter is located behind the wrists and the weight is supported by a harness.

FIGURE 28: An overhead suspension system reduces the forces required to use the iron.

4.5 Using mechanical aidsMechanical equipment may eliminate or reduce the need for workers to lift, carry or support items, animals or people. A wide range of mechanical aids is available for various industries, for example: (Figures 29-31)

conveyors such as roller conveyors, elevating conveyors, belt conveyors, screw conveyors, chutes, monorails or trolley conveyors

cranes such as overhead travelling cranes, gantry cranes or jib cranes, stacker cranes, industrial manipulators and articulating arms

lifting hoists

loading dock levellers

turntables

springs or gas struts, mechanical devices such as hand winches, hydraulic pumps, and battery powered motors

forklifts, platforms trucks, tractor-trailer trains, tugs and pallet trucks

lift tables, mechanical and hand stackers, lift trolleys, two-wheel elevating hand trucks, and vacuum or magnet assisted lifters

glass panel, duct and plaster lifters.

FIGURE 29: Example of lift table.


FIGURE 31: Using mechanical equipment, such as overhead cranes to lift and move very heavy objects eliminates the need to apply high force.

FIGURE 31: A vacuum operated lifting device can reduce the forces, awkward postures, and movements required to manually load products onto pallets.

FIGURE 31: A self-adjusting base in the laundry tubs reduces the need for bending, twisting and reaching during unloading.

Mechanical aids should be:

designed to suit the load and the work being done

as light as their function will allow

adjustable to accommodate a range of users

easy to use

suited to the environment in which the task is performed

located close to the work area so they are readily available but do not cause an obstruction

supported by a maintenance program to ensure they are safe and that the required effort to use them is kept at the lowest possible level

introduced with suitable instruction and training in their use.

When you introduce a mechanical aid into the workplace, you must provide adequate information, instruction, training and supervision to ensure that new arrangements do not introduce any additional risks to workers, for example, a forklift operated in the same workspace used by other workers.

PUSHING AND PULLING LOADS

Pushing loads is preferable to pulling because it involves less work by the muscles of the lower back, allows maximum use of body weight, less awkward postures and generally allows workers to adopt a forward facing posture, providing better vision in the direction of travel.

Reduce the effort required to start the load in motion by:

using motorised push/pull equipment such as tugs or electric pallet jacks

using slide sheets to reduce friction when moving patients



positioning trolleys with wheels in the direction of travel

using large power muscles of the legs and whole body momentum to initiate the push or pull of a load.

Reduce the effort to keep the load moving by:

using motorised hand trucks and trolleys that are as lightly constructed as possible and have large wheels or castors that are sized correctly and roll freely

using hand trucks or trolleys that have vertical handles, or handles at a height of approximately one metre

ensuring that hand trucks and trolleys are well maintained

treating surfaces to reduce resistance when sliding loads

for pushing, ensuring handles allow the hands to be positioned above waist height and with elbows bent close to the body

for pulling, ensuring handles allow the hands to be positioned below waist height allowing workers to adopt a standing position rather than being seated so the whole body can be used.

Reduce the effort needed to stop the load by:

indicating the place where loads need to be delivered

planning the fl ow of work

encouraging workers to slow down gradually

fi tting brakes and speed limiters so speed can be controlled, particularly if there is a need to stop quickly so as to avoid other traffi c.

FIGURE 32: A trolley can eliminate many of the risks involved in manual handling, however, the load will still need to be manoeuvered onto the trolley and through the workplace.



4.6 Handling people and animals

HANDLING PEOPLENo worker should fully lift a person (other than a small infant) unaided, that is without assistance from, for example, mechanical aids, assistive devices or another worker. All people handling activities are a potential source of injury and the risks associated with this hazardous manual task must be eliminated or minimised so far as is reasonably practicable.

With people handling, the health and safety of the person being handled needs to be considered as well as the health and safety of the worker/s and others involved in the task. The physical condition of the person being handled as well as their non-physical characteristics, for example their ability to understand and communicate and their behaviour, will affect how the people handling activity is undertaken and the risks involved.

When people are being handled, the controls selected should take into account all of the sources of risks. Controls may include the following:

a mobility risk assessment: maximise the person’s ability to assist in the move through the use of appropriate advice, mechanical and/or assistive devices.

moving the person to a place that does not constrain the movement of the worker performing the task, for example, using a shower trolley to bathe a patient

where handling is required, assessing the needs of the task including the specifi c type of mechanical aids and personnel needed, and planning it in a manner that avoids the hazardous manual task

where the use of a hoist requires two or more people provide adequate supervision and resources to eliminate the risk of workers being under time pressure and attempting the task on their own

planning how to handle a person attached to medical or other equipment

ensuring the location and storage of mechanical aids and assistive devices allows easy access

providing training for the safe use of mechanical aids and assistive devices.

HANDLING ANIMALSSupporting or restraining animals should only be carried out by people with the necessary skills and experience. When animals are being handled consider the following:

using mechanical devices or other restraining aids for lifting, transporting or restraining animals

moving the animal to a place that constrains or minimises the movement of the animal before commencing the task

where handling is required, assessing the needs of the task including the specifi c type of mechanical aids and personnel, and planning it in a manner that avoids double-handling

where the use of a mechanical aid or assistive device requires two or more people, providing adequate resources so that workers under time pressure don’t try to complete the task on their own.



4.7 Changing the system of work

WORKLOAD AND PACE OF WORKThe workload and pace should accommodate the physical demands of the manual task. Where possible, work should be organised to minimise multiple handling and improve the fl ow of work by:

having raw materials delivered, located or transferred mechanically to the location or work area where they will be used. For example, building supplies can be delivered by truck or crane to the on-site location where they will be used or to the external lift, rather than being delivered to the front gate

delivering materials, tools and items on mobile systems, for example, on roller pallets

processing and packaging items in the same location or on the same workbench

locating storage areas close to distribution areas

changing the distribution of work across the work day or week to avoid high peak workloads

using systems that minimise the need for storage and additional handling

asking suppliers to deliver products, items or tools in a way that allows them to be used without the need for additional handling, for example, fl at packs delivered on a vertical frame or table tops facing the right way up for use.

Workers should not have to work at a rate that is at the limit of their ability. When you establish a work rate, you should consult with the workers affected and their health and safety representatives. Set realistic work rates by:

allowing workers to control the pace for critical or physically demanding tasks

providing adjustability in the line speed, for example, reduce the speed when conditions are altered, such as when new products are introduced or poor quality materials are used

providing buffers to allow material to be taken off-line, for example, ‘holding’ bins or benches off the main processing conveyor.

FIGURE 33: The work rate for high volume production and processing should not extend workers to their physical limits.



DESIGN TASKS FOR THE WORKING POPULATIONTask design should take account of the range of human dimensions and capabilities such as height, reach and weight. Adapt work systems to accommodate the health/fi tness status of a worker. If this is not reasonably practicable, allocate the worker to other tasks. In designing work systems, considerations also include:

the capacity of workers who have not reached physical maturity for physically demanding work

the possibility that older workers may have a decreased physical capacity for physically demanding or fast work

the need for gradual adjustment to physically demanding work activities during recovery from injury or illness

pregnancy which affects the risk of back pain because of the changing shape of the body.

Provide transition arrangements for workers undertaking unaccustomed work by:

reducing the pace of work or workloads

providing more frequent breaks

job rotation.

RESOURCES AND SUPPORTWhen introducing risk control measures that involve plant, tools or equipment, ensure that:

it is the right equipment for the task

there is suffi cient, available equipment

plant, tools and equipment are checked and maintained on a regular basis.

To allow for adequate recovery time and to reduce exposure to risks of MSD, arrange to have the right staffi ng levels, skill mix and shift arrangements considering:

shift lengths

the levels of overtime

placement of rostered days off

the numbers of workers during peak periods

Communicate and consult with workers about the way work is organised and allow workers to seek assistance from another person when necessary.

4.8 Changing the work environment

VIBRATIONWhole-body vibration – the design of vibration damped equipment and engine mountings are the most effective methods of controlling vibration exposure. Other strategies to reduce exposure include:

improving vehicle suspension and installation of operator seats mounted on suspension systems which incorporate spring and damper elements

ensuring that equipment and control measures implemented to reduce vibration are well maintained



ensuring workers adjust their seats appropriately and equipment is operated within the speed suggested by the manufacturer or to a speed that reduces vibration levels

training workers about the risks associated with whole-body vibration, the controls that have been implemented and how they should be used.

Hand-arm vibration – substitute alternative manufacturing methods or processes to eliminate the need for vibrating equipment. Where this is not possible, the best strategy is to purchase tools and equipment that produce less vibration.

COLD CONDITIONSTo control exposure to cold conditions you should:

ensure your workers take regular rest breaks in a warm place

ensure your workers wear non-slip footwear and clothing that is fi tted and not too bulky or restrictive

provide personal protective equipment suitable for the task (for example, gloves to provide protection from the cold and also allow a good grip of the objects being handled).

HEAT AND HUMIDITYFor workers in hot and humid conditions, reduce temperature and humidity during manual tasks where possible by:

relocating work away from sources of heat

providing fans or air-conditioning

using screens, awnings and clothing to shield workers from radiant heat sources such as ovens, furnaces and the sun

enclosing hot processes and increasing ventilation

altering work schedules so that work is done at cooler times

providing a cool, well-ventilated area where workers can take rest breaks

ensuring that workers work at a sensible pace

providing a supply of cool drinking water.

WINDY CONDITIONSConsider minimising the risk of exposure to windy conditions by:

planning the route of work through protected pathways

using vehicles to transport items in outdoor conditions

co-ordinating tasks during low wind conditions.

FLOORS AND SURFACESKeeping work areas clean, tidy and free of clutter or obstacles prevents workers from adopting awkward postures and reduces the level of exertion that may be required to reach over or around obstacles. Clean, smooth and fl at surfaces can also reduce forces required to push and pull objects and prevent slips, trips and falls.



LIGHTING Select lighting to suit the task performed. To prevent awkward or sustained postures that may arise from low or excessive levels of lighting, glare or refl ection:

provide additional lighting, such as a lamp on a movable arm, where required

improve the layout of existing lights by lowering or raising them or changing their position in the work area

increase or decrease the number of lights

change the diffusers or refl ectors on existing lights

change the lights to improve light levels or improve colour perception

change the orientation or position of the item to avoid shadows, glare or refl ections

clean lights and light fi ttings regularly

use screens, visors, shields, hoods, curtains, blinds or external louvers to reduce refl ections, shadows and glare

control natural light sources (particularly bright sunshine) on work pieces, screens and work surfaces by orientation and placement at 90 degrees to the source and/or by providing screening and louvers.

4.9 Using administrative control measuresAdministrative control measures do not address the risk factors or source of the risk – they only attempt to reduce risk by reducing exposure to those risk factors.

JOB ROTATIONThe risk of MSDs may be minimised by rotating staff between different tasks to increase task variety. Job rotation requires the tasks to be suffi ciently different to ensure that different muscle groups are used in different ways so they have a chance to recover. To increase task variety, you should consider:

combining two or more tasks so both are done by one worker and alter the workstation and items used accordingly

providing breaks doing another task when the job is monotonous.

REST BREAKSRegular rest breaks provide opportunities for workers to prevent the build-up of, or recover from the effects of, fatigue in muscle groups used during hazardous manual tasks that involve:

repetitive awkward postures or sustained postures

application of high force

vibration

long duration

high levels of mental demand combined with hazardous manual tasks, for example inspection work.



The frequency and duration of rest breaks will be dependent on the nature of the task. Generally, the greater the force required, or the longer a posture is sustained, the greater the recovery time.

More frequent and shorter rest breaks are better for rest and recovery than fewer, longer breaks. Build short breaks into task rotation arrangements where work is of a similar nature, for example process production or hand tool use. Micro-pauses (very short intermittent breaks) in physical activity are also benefi cial. Build these into the design of tasks and methods of work, for example:

workers put down hand tools or release them (suspension) between operations

keyboard operators remove hands from keyboards during natural keying breaks

stagger manual tasks over the full work shift.

TEAM HANDLINGTeam handling is manual handling of a load by two or more workers. Team handling brings its own risks and requires coordination. It should only be used as an interim control measure. You should redesign manual tasks to allow the use of mechanical equipment, or eliminate the need to lift, if there is a regular need for team handling. Team lifting can increase the risk of MSD if:

the load is not shared equally

workers do not exert force simultaneously

individual workers need to make foot or hand adjustments to accommodate other team members, reducing the force each can exert

performed on steps or on a slope where most of the weight will be borne by handlers at the lower end

individual workers unexpectedly lose their grip, increasing or changing the balance of the load on other team members.

Whenever team handling is used it is essential to match workers, co-ordinate and carefully plan the lift. You should ensure that:

the number of workers in the team is in proportion to the weight of the load and the diffi culty of the lift

one person is appointed to plan and take charge of the operation

enough space is available for the handlers to manoeuvre as a group

team members are of similar height and capability, where possible

team members know their responsibilities during the lift

training in team lifting has been provided and the lift rehearsed, including what to do in case of an emergency

aids to assist with handling (a stretcher, slings, straps, lifting bars, lifting tongs, trolleys, hoists) are used where possible and training is provided in their use.

INFORMATION, TRAINING AND INSTRUCTIONIf a risk of MSDs remains after implementing higher level control measures, then the risk must be minimised by providing information, training and instruction. Training in lifting techniques must not be used as the sole or primary means to control the risk of MSDs.



4.10 Implementing control measuresRisk control may initially involve using short term, interim measures while a long term solution is developed. For example, temporarily raise the bench until it can be replaced or altered permanently, or rotate employees through a production line to reduce the time spent working at a low bench until it can be changed.

To implement the most effective risk controls, you should:

allow workers to trial solutions before decisions are made to make the solution permanent

review controls after an initial testing period, as they may need modifi cation

develop work procedures to ensure that controls are understood and responsibilities are clear

communicate the reasons for the change to workers and others

provide training to ensure workers can implement the risk controls for the task competently

ensure that any equipment used in the manual task is properly maintained.

You should not make fi nal decisions on the effectiveness of the control measures that you have implemented until enough time has passed for your workers to adjust to the changes. Workers should be given a chance to practice using the new workstation, tool, mechanical device or new work method. Some modifi cations may require workers to use new muscle groups or different parts of the body and they may initially feel some discomfort. At this stage, you should frequently check with your workers how they feel the improvements are working.

TRAININGTraining in the type of control measures implemented should be provided during induction into a new job and as part of an on-going manual task risk control program. Training should be provided to:

workers required to carry out, supervise or manage hazardous manual tasks

in-house designers, engineers and offi cers responsible for the selection and maintenance of plant and/or the design and organisation of the job/task

any health and safety representatives.

The training should include information on:

manual task risk management, including the characteristics of hazardous manual tasks

specifi c manual task risks and the measures in place to control them

how to perform manual tasks safely, including the use of mechanical aids, tools, equipment and safe work procedures

how to report a problem or maintenance issues.

You should review your training program regularly and also when there is change to work processes, plant or equipment, implementation of new control measures, relevant legislation or other issues that may impact on the way the task is performed.

You should keep records of induction and training given to your workers. The records can include information such as the date of the session, the topics dealt with, and the name and signature of the trainer and each of the workers who attended the session.



Control measures that have been implemented must be reviewed and, if necessary, revised to make sure they work as planned and to maintain a work environment that is without risks to health and safety.

A person conducting a business or undertaking must review and as necessary revise risk control measures:

when the control measure does not minimise the risk so far as is reasonably practicable

before a change at the workplace that is likely to give rise to a new or different health and safety risk that the control measure may not effectively control

if a new hazard or risk is identifi ed

if the results of consultation indicate that a review is necessary

if a health and safety representative requests a review.

Control measures may be reviewed using the same methods as the initial hazard identifi cation step. Consult your workers involved in the manual task and their health and safety representatives and consider the following:

Are the control measures working effectively in both their design and operation, without creating new risks?

Are workers actively involved in the risk management process? Are they openly raising health and safety concerns and reporting problems promptly?

Have new work methods or new equipment reduced physical strain or diffi culty?

Has instruction and training on hazardous manual tasks and the implemented control measures been successful?

Is the frequency and severity of MSDs reducing over time?

Is an alteration planned to any structure, plant or process that is likely to result in a worker being exposed to a hazardous manual task?

Has an incident occurred as a result of a worker being exposed to a hazardous manual task?

If new information becomes available, does it indicate current controls may no longer be the most effective?

If problems are found, go back through the risk management steps, review your information and make further decisions about risk control.

5. REVIEWING CONTROL MEASURES

Regulation 38


The best time to eliminate or minimise the risk of MSDs is in the design and planning stage – when hazards and risks can be ‘designed out’ before they are introduced into a workplace.

Designers, manufacturers, importers and suppliers of plant and structures have duties under the WHS Act to ensure, so far as is reasonably practicable, that these products are without risks to health and safety when used for a purpose for which they were designed or manufactured.

6.1 Designers

Designers of plant or structures used for work must:

ensure the plant or structure is designed to eliminate the need to carry out a hazardous manual task in connection with the plant or structure

where this is not reasonably practicable, minimise the need to carry out a hazardous manual task in connection with the plant or structure so far as is reasonably practicable

give each person who is provided with the design for the purpose of giving effect to it adequate information about the features of the plant or structure that eliminate or minimise the need for any hazardous manual task to be carried out.

Ergonomic principles should be applied in the design stage. This means that a manual task should be designed to fi t the people doing the task, not the reverse. Ergonomics involves consideration of the variability in human capability and an understanding of how people interact with the work environment, tools and equipment.

If you provide your design to another person (for example, a manufacturer) then you must provide certain information, including:

the purpose for which the plant or structure was designed

how you have dealt with hazards that may impact on manual tasks in your design, and whether there are any residual risks

how to handle the product safely, including during its transportation, installation, operation, maintenance and disposal.

Quality assurance processes can be used to check that the product effectively minimises the risk of MSDs. When modifying a design, take into account feedback from purchasers and users of your product.

DESIGN OF WORKPLACESDesigners of buildings used as workplaces should consider the manual tasks that may be performed throughout the lifecycle of the building, from construction through to use, maintenance, refurbishment and potential demolition. For example, design:

building materials that are strong yet light-weight

large structural components with suitable lifting points to enable lifting by crane

spaces large enough to accommodate or incorporate mechanical devices

minimal distances for pushing, pulling, lifting or carrying loads

materials handling devices into the building, such as lifts and chutes

fl oor surfaces to enable wheeled equipment to be pushed or pulled easily.

6. ROLE OF DESIGNERS, MANUFACTURERS, IMPORTERS AND SUPPLIERS

Regulation 61


Some types of workplaces, such as hospitals, nursing homes, warehouses and distribution centres that carry out a high level of manual tasks will have particular design requirements to eliminate or minimise the risk of MSDs.

DESIGN OF PLANTThe safe design of plant can play a critical role in reducing the risk of MSD for workers. When designing plant, consider all phases of its life, including manufacture, cleaning and servicing.

If practicable, trial a prototype in a range of operating conditions and think about how the plant will be used. Change any aspects of the design that increase the risk of injury, for example:

eliminate or reduce the number of repetitive actions, postures and movements required to operate the plant

design handles on tools and controls to allow normal wrist postures

reduce the forces required to operate the plant

provide instructions, signs or symbols to help people use the plant properly

take into account the range of physical characteristics of those who use the plant, such as size and strength

ensure that the plant operates at a speed or rate that would suit most users

ensure that regular maintenance points are easily accessible.

Appendix E lists some examples of design-related MSD risks for plant, and shows how to control the risks through safe design.

6.2 Manufacturers, importers and suppliers

Manufacturers of plant or structures must:

ensure the plant or structure is manufactured designed to eliminate the need to carry out a hazardous manual task in connection with the plant or structure

where this is not reasonably practicable, minimise the need to carry out a hazardous manual task in connection with the plant or structure so far as is reasonably practicable

give each person to whom the manufacturer provides the plant or structure adequate information about the features of the plant or structure that eliminate or minimise the need for any hazardous manual task to be carried out.

Importers and suppliers must take all reasonable steps to obtain that information the designer or manufacturer is required to give and provide it to any person to whom the plant or structure is supplied.

Manufacturers, importers and suppliers should consider the way their products are packaged and delivered to workplaces to eliminate or minimise the risk of MSDs, for example:

provide lifting aids or lifting points so mechanical aids can be used

provide two handles or handholds to prevent one-handed lifting, particularly where the load is heavy or needs to be moved frequently

repackage the load into a different weight, size or shape:


Regulation 61


Large and bulky loads are diffi cult to handle, promote awkward postures, increased muscular exertion and are diffi cult to hold close to the body

Heavy loads generally require greater force to handle. Loads that are unwieldy, unstable or move unpredictably increase risk by creating sudden high forces

label loads to indicate any MSD risks, and where appropriate, any necessary precautions when handling the load

deliver goods in sturdy boxes or containers with handles or handholds. Handholds on cardboard boxes should be reinforced so that it does not rip when the box is picked up.

Packaged items should be arranged so the package is well balanced and the contents will not shift unexpectedly while being handled, for example:

use slings or other aids to maintain effective control when handling loads that lack rigidity

fi ll containers holding liquids or free-moving powder so that there is only a small amount of free space at the top of individual containers

use baffl es, dividers or packing materials to keep the contents stable in partly-fi lled packages

secure loads that may move during handling, for example animals in slings, fertiliser bags inside sturdy boxes

shrink wrapping loads on pallets.

PROVIDING INFORMATIONManufacturers, importers and suppliers must also give purchasers and users the information they need to use the product safely, including during its transportation, operation and maintenance. This information may be provided in user manuals, brochures or on the product itself (for example, labelling cartons). The information should be accurate, clear and easy to understand.

Loads should be labelled to indicate any MSD risks, and where appropriate, any necessary precautions when handling the load. This information should indicate:

the heaviest side of an off-centred load, for example, with an arrow drawn on the packing carton

the weight of the load

whether the load is fragile

the stability of the load, for example a label saying that the contents of a package may move while being transported or handled

any specifi c handling or unpacking instructions.

Information provided by the designer to the manufacturer should be passed on to the supplier and then to the purchaser. Importers should obtain the information from their suppliers.

If you are an importer or a supplier and you cannot get this information from the designer or manufacturer, you should obtain information from other sources or develop it yourself.



WHAT IS THE MANUAL TASK?

Using the body to lift, lower, push, pull, carry or otherwise move, hold or restrain any person, animal or thing.

IS THE MANUAL TASK HAZARDOUS?

Application of force:

Repetitive

Sustained

High

Sudden

Posture:

Sustained

Awkward

Movement:

Repetitive

Exposure to vibration

WHAT IS THE RISK OF MSD?

How often and how long are specifi c postures, movement or forces performed or held?

What is the duration of the task?

Does the task involve high or sudden force?

Does the task involve vibration?

WHAT IS THE SOURCE OF RISK?

Work area design and layout

Systems of work Nature, size, weight and number of persons, animals or things handled

Work environment

Is the task necessary?

Can the source of risk (work area layout, environment, etc) be changed?

Can mechanical aids be used to perform the task?

What training is needed to support the control measures?

when the control measure is no longer effective

before a change at the workplace that is likely to give rise to a new or different health and safety risk that the control measure may not effectively control

if the new hazard or risk is identifi ed

if the results of consultation indicate that a review is necessary

if a health and safety representative at the workplace requests a review.

APPENDIX A – THE RISK MANAGEMENT PROCESS FOR MANUAL TASKS

RE

VIE

W

C

ON

TRO

L

AS

SE

SS

IDE

NTI

FY

CO

NS

ULT

CO

NS

ULT

C

ON

SU

LT

C

ON

SU

LT


APPENDIX B – HAZARDOUS MANUAL TASK INDENTIFICATION WORKSHEET

Wo

rk a

rea:

Man

agem

ent

rep

rese

nta

tive

:

Hea

lth

an

d S

afet

y re

pre

sen

tati

ve a

nd

wo

rker

s ta

kin

g p

art:

Dat

e:

Do

es t

he

task

hav

e an

y o

f th

e ch

arac

teri

stic

s o

f a

haz

ard

ou

s m

anu

al t

ask?

(ti

ck a

ny o

f th

e fo

llow

ing

th

at a

pp

ly)

Task

Rep

etiti

ve

or s

usta

ined

fo

rce

Hig

h or

su

dden

forc

eSu

stai

ned

or a

wkw

ard

post

ures

Rep

etiti

ve

mov

emen

tEx

posu

re to

vi

brat

ion

If y

ou ti

cked

any

of t

he b

oxes

for a

par

ticul

ar ta

sk, y

ou s

houl

d do

a ri

sk a

sses

smen

t of t

hat t

ask.


A discomfort survey can help identify hazardous manual tasks. Early reporting of symptoms can lead to risk controls being put in place before injury occurs.

The survey sheet below will help you identify and record instances where workers experience discomfort that:

persists, or

re-occurs the next day, or

persists after rostered days off.

Encourage workers to report pain or discomfort at work or at any other time. Follow up the reasons for the problem. Even if only one worker reports problems, assess the presence of a risk factor.

Name (optional) ____________________________________________________________ ____________________________________________________________

Date ____________________________________________________________

Job work location ____________________________________________________________

Tasks involved ____________________________________________________________

Time on this job: Less than 3mths 3mths to 1 yr 1 to 5 yrs

Supervisor ____________________________________________________________

1. Do you suffer from swelling, numbness, tingling, ‘pins and needles’ stiffness, aches and pains in any part of the body? Indicate in the diagrams where the problem occurs.

2. Rate the level of discomfort/pain on a scale of 1 to 5

1. _________ 2. _________ 3. _________ 4. _________ 5. __________________ 2. _________ 3. _________ 4. _________ 5. _________

Just noticeable Moderate Unbearable

3. What do you think caused the problem?

__________________________________________________________________________________

__________________________________________________________________________________

__________________________________________________________________________________

__________________________________________________________________________________

__________________________________________________________________________________

__________________________________________________________________________________

__________________________________________________________________________________

APPENDIX C – DISCOMFORT SURVEY


Loca

tion

of ta

sk:

Man

agem

ent r

ep:

Des

crip

tion

of

haza

rdou

s m

anua

l ta

sk:

Hea

lth a

nd S

afet

y re

p:

Dat

e of

as

sess

men

t:O

ther

s (w

orke

rs,

cons

ulta

nts)

:

Rea

son

for i

dent

ifi ca

tion

Exis

ting

task

Cha

nge

in ta

sk, o

bjec

t or

tool

Rep

ort o

f mus

culo

skel

etal

di

sord

er (M

SD)

New

task

New

info

rmat

ion

Step

1 –

Doe

s th

e ta

sk in

volv

e re

petit

ive

or s

usta

ined

mov

emen

ts, p

ostu

res

or fo

rces

? A

s a

guid

e;

repe

titiv

e m

eans

the

mov

emen

t or f

orce

is p

erfo

rmed

mor

e th

an tw

ice

a m

inut

e an

d

sus

tain

ed m

eans

the

post

ure

or fo

rce

is h

eld

for m

ore

than

30

seco

nds

at a

tim

e.

Post

ures

and

Mov

emen

ts (p

lace

a

tick

in th

e ‘y

es’ c

olum

n ea

ch

time

you

obse

rve

repe

titiv

e m

ovem

ent o

r sus

tain

ed p

ostu

re)

Yes

This

act

ion

happ

ens

whe

n…

beca

use.

.. (d

escr

ibe

why

)

This

is th

e so

urce

of

the

risk

If an

y bo

xes

are

ticke

d,

wha

t are

pos

sibl

e co

ntro

ls to

redu

ce

the

risk

BA

CK

Ben

ding

or

tw

istin

ge.

g. m

ore

than

20

degr

ees

Forw

ards

Sid

eway

s

Twis

ting

Ben

ding

e.

g. m

ore

than

5

degr

ees

Bac

kwar

ds

APPENDIX D – RISK ASSESSMENT WORKSHEET


Post

ures

and

Mov

emen

ts (p

lace

a ti

ck in

th

e ‘y

es’ c

olum

n ea

ch ti

me

you

obse

rve

repe

titiv

e m

ovem

ent o

r sus

tain

ed

post

ure)

Yes

This

act

ion

happ

ens

whe

n…

beca

use.

.. (d

escr

ibe

why

)

This

is th

e so

urce

of

the

risk

If an

y bo

xes

are

ticke

d, w

hat a

re

poss

ible

con

trol

s to

redu

ce th

e ris

k

NE

CK

OR

HE

AD

Ben

ding

or

twis

ting

e.g.

mor

e th

an

20 d

egre

es

Forw

ards

Sid

eway

s

Twis

ting

Ben

ding

e.

g. m

ore

than

5

degr

ees

Bac

kwar

ds

AR

MS

/HA

ND

S

Wor

king

with

one

or b

oth

hand

s ab

ove

shou

lder

hei

ght

Rea

chin

g fo

rwar

ds o

r sid

eway

s m

ore

than

30

cm fr

om th

e bo

dy

Rea

chin

g be

hind

the

body

Exc

essi

ve b

endi

ng o

f the

wris

t

Twis

ting,

turn

ing

grab

bing

, pic

king

or

wrin

ging

act

ions

with

the

fi nge

rs, h

ands

or

arm

s

LEG

S

Squ

attin

g, k

neel

ing,

cra

wlin

g, ly

ing,

sem

i-ly

ing

or ju

mpi

ng,

Sta

ndin

g w

ith m

ost o

f the

bod

y’s

wei

ght

on o

ne le

g

VE

RY

FA

ST

MO

VE

ME

NT

S



FOR

CES

(Pla

ce a

tick

in th

e ‘y

es’ c

olum

n ea

ch ti

me

you

obse

rve

repe

titiv

e or

sus

tain

ed

forc

es)

Yes

This

act

ion

happ

ens

whe

n…

beca

use.

.. (d

escr

ibe

why

)

This

is th

e so

urce

of t

he

risk

If an

y bo

xes

are

ticke

d,

wha

t are

pos

sibl

e co

ntro

ls to

redu

ce th

e ris

k

Lifti

ng o

r low

erin

g

Car

ryin

g w

ith o

ne h

and

or o

ne

side

of t

he b

ody

Exe

rting

forc

e w

ith o

ne h

and

or

one

side

of t

he b

ody

Pus

hing

, pul

ling

or d

ragg

ing

Very

fast

act

ions

Wor

king

with

the

fi nge

rs c

lose

to

geth

er o

r wid

e ap

art

App

lyin

g un

even

, fas

t or j

erky

fo

rces

Hol

ding

, sup

porti

ng o

r re

stra

inin

g an

ythi

ng (i

nclu

ding

a

pers

on, a

nim

al o

r too

l)

ST

EP

2 –

DO

ES

TH

E T

AS

K I

N S

TE

P 1

IN

VO

LVE

LO

NG

DU

RA

TIO

N?

Tick

yes

if th

e ta

sk is

don

e fo

r:

DU

RAT

ION

Yes

CO

MM

ENTS

Mor

e th

an 2

hou

rs

over

a w

hole

shi

ft,

Con

tinua

lly fo

r mor

e th

an 3

0 m

inut

es a

t a

time

IF Y

OU

TIC

KED

YES

TH

EN T

HE

TASK

IS A

RIS

K A

ND

MU

ST B

E C

ON

TRO

LLED



ST

EP

3 –

DO

ES

TH

E T

AS

K I

NV

OLV

E H

IGH

OR

SU

DD

EN

FO

RC

E?

FOR

CES

(Tic

k ye

s if

the

task

invo

lves

any

of t

he fo

llow

ing

high

or

sudd

en fo

rces

, eve

n if

the

forc

e is

app

lied

only

onc

e)Ye

sTh

is a

ctio

n ha

ppen

s w

hen…

beca

use.

.. (d

escr

ibe

why

)Th

is is

the

sour

ce o

f the

risk

If an

y bo

xes

are

ticke

d, w

hat a

re

poss

ible

con

trol

s to

redu

ce th

e ris

k

Lifti

ng, l

ower

ing

or c

arry

ing

heav

y lo

ads

Thro

win

g or

cat

chin

g

Hitt

ing

or k

icki

ng o

r jum

ping

App

lyin

g a

sudd

en o

r une

xpec

ted

forc

e in

clud

ing:

han

dlin

g a

live

pers

on o

r ani

mal

or

app

lyin

g un

even

, fas

t or j

erky

forc

es d

urin

g lif

ting,

car

ryin

g, p

ushi

ng

or p

ullin

g or

Pus

hing

or p

ullin

g ob

ject

s th

at a

re h

ard

mov

e or

sto

p eg

a tr

olle

y

Exe

rting

forc

e w

hile

in a

n be

nt, t

wis

ted

or a

wkw

ard

post

ure

incl

udin

g:

sup

porti

ng it

ems

with

han

ds a

re a

bove

sho

ulde

r hei

ght o

r

mov

ing

item

s w

hen

legs

are

in a

n aw

kwar

d po

stur

e, w

orki

ng w

ith

fi nge

rs p

inch

ed to

geth

er o

r hel

d w

ide

apar

t

Usi

ng a

fi ng

er g

rip o

r pin

ch g

rip o

r an

open

han

ded

grip

Exe

rting

a fo

rce

with

the

non-

pref

erre

d ha

nd

Nee

ding

to u

se tw

o ha

nds

to o

pera

te a

tool

des

igne

d fo

r one

han

d

The

task

can

onl

y be

don

e fo

r sho

rt pe

riods

of t

ime

Two

or m

ore

peop

le n

eed

to b

e as

sign

ed to

han

dle

a he

avy,

aw

kwar

d or

bul

ky lo

ad

Wor

kers

repo

rt pa

in o

r sig

nifi c

ant d

isco

mfo

rt du

ring

or a

fter t

he ta

sk

Stro

nger

wor

kers

ass

igne

d to

do

the

task

Em

ploy

ees

say

the

task

is p

hysi

cally

ver

y st

renu

ous

or d

iffi c

ult t

o do

Wor

kers

thin

k th

e ta

sk s

houl

d be

don

e by

mor

e th

an o

ne p

erso

n, o

r se

ek h

elp

to d

o th

e ta

sk a

s it

requ

ires

high

forc

e



STEP 4 – IS THERE HAND, ARM OR WHOLE BODY VIBRATION? Tick yes if any of the following environmental factors are present in the task.

YES

Driving for long periods

Driving on rough roads

Frequent use of hand powered tools or use for long periods

Using high grip forces or awkward postures when using power tools

Use of machines or tools where the manufacturer’s handbook warns of vibration

Workers being jolted or continuously shaken

Use of a vehicle or tool not suitable for the environment or task

STEP 5 – IS THERE A RISK?

Did you answer yes in step 1 and step 2? The task is a risk. Risk control is required.

Did you answer yes in step 3? The task is a risk. Risk control is required.

Did you answer yes in step 4? This task requires further investigation – refer to Vibration Code of Practice

To aid prioritisation of timing and resourcing risk controls you may also need to consider:

Number of ticks or risk factors.

Additional factors such as injuries associated with the task.

These items capture degree and likelihood of harm. You will also need to consider the availability and suitability of risk controls for the task.



RIS

K C

ON

TR

OL

Wha

t nee

ds to

be

fi xed

to c

ontr

ol th

e ris

k? (R

efer

Sec

tion

xx)

You

may

nee

d to

use

a c

ombi

natio

n of

risk

con

trols

to e

limin

ate

or m

inim

ise

the

risk

as fa

r as

reas

onab

ly p

ract

icab

le.

Can

you

sto

p do

ing

the

task

or

par

t of t

he ta

sk?

No

Can

you

elim

inat

e or

redu

ce th

e ris

k by

do

ing

one

or m

ore

of th

ese

thin

gs?

alte

ring

the

wor

k ar

ea d

esig

n an

d la

yout

alte

ring

the

equi

pmen

t, m

achi

nery

and

lo

ads

hand

led

alte

ring

the

wor

kpla

ce e

nviro

nmen

t

cha

ngin

g th

e w

ork

orga

niza

tion,

wor

k pr

actic

es o

r sys

tem

s of

wor

k

No

Yes

How

?

How

?

Wha

t inf

orm

atio

n, in

stru

ctio

n, tr

aini

ng a

nd s

uper

visi

on is

ne

cess

ary

to m

ake

the

new

pro

cedu

re w

ork

prop

erly

?

Can

you

redu

ce th

e ris

k w

ith in

form

atio

n, in

stru

ctio

n, tr

aini

ng a

nd s

uper

visi

on?

How

?

Yes



Type of plant MSD risk Possible design solution

Road-making machinery

Repetitive or sustained twisting of the neck and body while reversing. This is caused by the seat being fi xed in a forward-facing position.

Design a swivel seat-mount together with two sets of controls, or controls that move with seat rotation.

Forklifts Sustained exposure to whole-body vibration transferred through the seat.

Repetitive or sustained bending of the neck and back to see the work properly (for example, continually looking up to place loads on high shelves).

Install damping mechanisms in the seat, cabin and vehicle suspension.

Install visual aids such as mirrors or a video camera and screen.

Wrapping machines on process lines

Strain on the lower back when handling heavy rolls of plastic wrapping in awkward and twisted postures, often above shoulder height. This is caused by inappropriate design and positioning of the roll spindle and by restricted access.

Design the spindle to be adjustable. This allows the rolls to be loaded at a suitable height and orientation, and eliminates the need to lift them.

Design equipment to help worker load rolls.

Locate the spindle in an accessible place on the plant.

Provide information about how to install the plant in a way that allows adequate access.

Power drills Prolonged use of the forearm muscles and wrist caused by a heavy or poorly balanced drill.

Exposure to vibration or impact shock recoil from hammer drills.

Excessive force needed to grip and control the tool to counter the effect of vibration and impact shocks.

Design drills to be as light as possible.

Design drills with the handle under the drill’s centre of gravity.

Design plant to reduce shock and vibration.

Provide a suitable way of holding the tool with both hands.

Pliers Pressure to the palm of the hand caused by handles that are too short.

Prolonged use of the forearm muscles and compression of the wrist caused by using pliers with straight handles.

Design pliers with handles that extend beyond the palm.

Design pliers with bent handles so that the user can maintain a straight wrist.

Crimping, clamping and cutting tools

Excessive force with outstretched fi ngers required to grip handles that are too wide apart.

Design handles with a grip span of 10 cm or less.

Chainsaws Excessive vibration.

High force required to handle the chainsaw.

Design to reduce vibration.Design the chainsaw to be as light as possible, and provide well-placed handles.

Chairs Poorly designed chairs that cannot be adjusted provide little back support and cause workers to adopt poor postures and movements.

Follow existing design guidelines for chairs, and consider how the chair will be used in the workplace.

Work-benches, workstations and other work surfaces

Workstations that cannot be adjusted result in unnecessary reaching, bending and exertion of force.

Design workstations to be adjustable.

Alternatively, dimensions should suit as many workers as possible.

APPENDIX E – CONTROLLING MSD RISKS THROUGH DESIGN


APPENDIX F – REFERENCES FOR FURTHER RISK ASSESSMENT METHODS

Method More information

University of Michigan 3 Dimensional Static Strength Prediction Program Computer Software OR University of Michigan 2 Dimensional Static Strength Prediction Computer Software

www.umich.edu

1991 NIOSH Lifting Equation (National Institute of Occupational Safety and Health – USA)

USA National Institute of Occupational Safety and Health http://www.cdc.gov/niosh/docs/94-110/pdfs/94-110.pdf

http://www.cdc.gov/niosh/docs/94-110/pdfs/94-110.pdf

Snook and Ciriello’s Tables of Maximum Acceptable Weights and Forces

Snook and Ciriello, “The design of manual handling tasks: revised tables of maximum acceptable weights and forces”, in Ergonomics, 1991, vol. 34, no. 9, pp. 1197-1213.

Rapid Entire Body Assessment (REBA) Hignett, S and McAtamney, L., Applied Ergonomics, 2000, vol. 31, pp. 201-205

Posture, Activity, Tools, Handling (PATH) PATH : A work sampling-based approach to ergonomic job analysis for construction and other non-repetitive work. Applied Ergonomics 1996, vol. 27, no. 3, pp. 177-187

Manual Tasks Risk Assessment Tool (ManTRA) V2.0

Burgess-Limerick, L., Straker, L., Pollock, C., Egeskov, R. 2004. Manual Risk Assessment Tool (ManTRA) V2.0. School of Human Movement Studies, The University of Queensland, Australia.http://ergonomics.uq.edu.au/download/mantra2.pdf

PErforM Burgess-Limerick, R. (2004): PErforM and ManTRA. Ergonomics Australia, 18(4), 10-13.

OCRA Index and Checklist Colombini, D., Occhipinti, E., & Grieco, A. (2002). Risk assessment and management of repetitive movements and exertions of upper limbs : job analysis, OCRA risk indices, prevention strategies and design principles. Oxford: Elsevier.

The Work Organisation Assessment Questionnaire (WOAQ)

EEF (2004). Work Organisation Assessment Questionnaire: A tool for the risk management of stress. London: EEF.

MSD risk assessment questionnaire Wendy Macdonald, Owen Evans and Ross Armstrong, 2007, Centre for Ergonomics & Human Factors, Faculty of Health Sciences, La Trobe University. Research on the Prevention of Work-Related Musculoskeletal Disorders – Stage 2A study of a small sample of workplaces in high risk industries. Department of Employment and Workplace Relations. OHS EXPERT RESEARCH PANEL. Project No. CIR 1001439-07

50 Worksafe Document Title Date 2010

Heading Level One

THIS CODE PROVIDES PRACTICAL GUIDANCE ON HOW TO MANAGE THE RISK OF MUSCULOSKELETAL DISORDERS ARISING FROM HAZARDOUS MANUAL TASKS IN THE WORKPLACE.

hazardous manual tasks - nt worksafe · in relation to hazardous manual tasks? 4 ... 1.4 what is...

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